RU197234U1 - Device for creating an artificial nest for salmon fish in vivo - Google Patents

Abstract

The utility model relates to fish farming and can be used to create artificial nests for salmon fish in natural river conditions. A device for creating an artificial nest for salmon fish in natural conditions includes a cylindrical body 1 with an opening 8 for laying fertilized eggs in it and a soil baking powder 3 located in the lower part of the body. According to a utility model, the device is additionally provided with a rod 4 mounted along the vertical axis of the housing 1 with the possibility of rotation around the axis. A cup 5 with an inclined bottom 6 is fixed at the end of the stem 4, a window 7 is formed on the side wall of the cup from the lower point of the inclined bottom 6. An opening 8 is made on the side wall of the housing 1 for laying fertilized eggs, to which the tank 9 is attached, and in the lower part of the body there was a hole 10 in size identical to the size of the window 7 in the glass 5. The technical result of the utility model is that delivery of fertilized eggs to the nest is closer to natural conditions. 8 s.p. f-ly, 2 ill.

Description

The utility model relates to fish farming and can be used to create artificial nests for salmon fish in natural river conditions.

Atlantic salmon of the Kola Peninsula overfishing and illegal fishing led to a sharp decrease in the number of salmon fish migrating into spawning rivers of the Murmansk, Arkhangelsk, Leningrad regions, the Republic of Karelia and Komi, the Nenets Autonomous Area. Young fish released into rivers by hatcheries are not adapted to life in natural conditions - they cannot withstand the speeds of the natural flow, poorly feed on tolerable invertebrate organisms, and are less resistant to diseases. As a result, most of it dies. In connection with the foregoing, one of the promising directions for the preservation of the number of salmon in spawning rivers and the restoration of salmon herds in former salmon rivers is the use of devices designed for incubating eggs in natural conditions. As one of the possible and effective options for using such devices in natural conditions, the creation of an artificial incubator nest mounted on the ground in a river stream should be considered. At the same time, caviar is laid in such a nest after fertilization. The larva emerging from this nest is settled on the outgrowth of the threshold and develops in natural conditions. Tests have shown that the yield of larvae from the developed designs of artificial nests-incubators exceeded the yield with natural spawning by 3-4 times. The expansion of the industrial use of artificial caviar incubator nests is aimed at the intensive stocking of empty spawning-growing areas in rivers.

A device is known for laying fertilized salmon caviar in artificial spawning mounds, which is a perforated container equipped with a scapula, with a capacity made in the form of a bucket pivotally connected to the scapula by the type of scissors. The bucket and the blade are interconnected in such a way that in the closed position the lower edge of the blade extends beyond the bucket, and the wall of the latter forms an acute angle with the plane of the blade (SU 286399, A01K61 / 00, 11/10/1970).

However, this device can be used in riverbeds, the bottom of which is composed of small pebbles. If there are large fractions, then the load on the hands increases when pushing the device into the ground. At depths of more than 50-60 cm, corresponding to the length of the hand, it is necessary to use long handles or work with scuba gear.

A device is known for incubating salmon caviar under natural conditions, including a body with an artificial incubation substrate in the form of a plate with holes having a perforated bottom installed in the central part of the body and dividing the body space into the lower part — a settling tank and the upper part — a storage chamber with an opening for exit larvae. The casing is made in the form of a parallelepiped with a perforated conical nose, along the side walls of the casing there are rails for installation in them, with the possibility of moving along the casing, plates with perforated holes. The body is buried in the bottom of the river at an angle α = 15-30 °. The hole for the exit of the larvae is 11-12 mm, and its lower edge is located at the bottom of the river. In addition, the body length is made from 30 to 50 cm. To protect the eggs from river sediment while observing the hydraulic conditions to ensure their favorable vital functions, perforation of the conical nose of the body is made with holes from 2 to 3.5 mm. To protect the eggs during the installation of the plate in a stream of water in the housing of the device, the plate with holes is equipped with a removable protective casing. (RU 133687, A01K 61/00, 10.27.2013).

The disadvantages of the device is that the beginning of the hull when installing it in the soil of the river is located at a depth of 8 cm to 25 cm, practically on the surface of the water and during ice drift, deformation of the bottom ice and devices located on the bottom is possible. With a plate size of 50 cm by 10 cm (30 cm by 10 cm) and a single egg size of 1.0 cm ² (with a hole diameter of 0.8 cm), no more than 500 (300) eggs can be placed in one device. With the fertility of one female salmon 6000 eggs, 6 to 10 such devices are needed.

The prototype of the utility model is a device for incubation of eggs in vivo, consisting of a body including a chamber with front, rear and side walls, a perforated tray, a lid, an outlet for the exit of larvae and an artificial incubation substrate, in which the body is made of a cylindrical shape with a diameter of 70 ÷ 80 mm, and above the incubation substrate there is a concentrating ring, with a hole, with an inner diameter of 10 mm to 15 mm. The housing cover is located at an angle from 5 ° to 45 ° to the flow, and holes with a diameter of 3 mm to 5 mm are made in the lower part of the housing to the pallet from the side of the seeping under-flow stream. When this cover is made with the possibility of rotation about an axis to a vertical position. On the outer surface of the body in its upper part there are “tides”, and in the lower part there is a soil baking powder. This baking powder can be made in the form of two perpendicularly arranged triangular plates with an apex angle of 120 ° to 90 ° (RU 83687, A01K 61/00, 20.06.2009)

Due to insufficient penetration of the device into the bottom soil, overflow of the sediment tank with sediment is possible. The sump is formed in the lower part of the device, under the incubation substrate, which can lead to a decrease in the rate of flow around the eggs. In this case, the amount of oxygen consumed by the embryo will decrease, which may lead to its death. Also, the device does not take into account the fluctuation of the water level in the places of its placement. Any change in the direction of the flow leads to a decrease in the rate of flow around the eggs, which in turn can worsen the living conditions of the eggs and lead to their death.

The problem of the utility model is the development of the design of the device, providing a uniform distribution of fertilized eggs in the pores of the soil.

The technical result of the utility model is the approximation of the delivery of fertilized eggs in the nest to natural conditions.

The stated problem and the indicated technical result are achieved by the fact that the device for creating an artificial nest for salmon fish in natural conditions includes a cylindrical body with an opening for laying fertilized eggs in it and a baking powder located in the lower part of the body. According to a utility model, the device is additionally provided with a rod mounted along the vertical axis of the housing with the possibility of its rotation around the axis. A glass with an inclined bottom is fixed at the end of the rod, a window is formed on the side wall of the glass, from the side of the lower point of the inclined bottom. A hole is made on the side wall of the body in its upper part, for which fertilized eggs are laid to which a reservoir is attached, and in the lower part of the body a hole is made in size identical to the size of the window in the glass.

Moreover, the height of the glass is from 0.9 to 1.6 D, where D is the inner diameter of the cylindrical body.

The width of the window in the glass corresponds to 0.2 D, where D is the inner diameter of the cylindrical body.

It is advisable to tilt the sloping bottom at an angle of 20-45 °.

It is advisable to perform the reservoir with a height of from 0.9 to 1.6 D, where D is the inner diameter of the cylindrical body.

The upper edge of the tank is preferably located above the surface of the water.

After filling the glass with fertilized caviar, it is covered with a net on top, to prevent leaching of eggs when it is immersed in the lower part of the body.

In the lower part, the housing is closed with a plug, on which a baking powder is made of rectangular or triangular plates.

In the lower part around the body above the hole for the release of eggs fixed plate in the form of a single coil of a spiral.

The presence of a rod installed along the vertical axis of the body with the possibility of its rotation around the axis, at the end of which a glass is fixed, makes it possible to deliver fertilized eggs from the upper part of the device to its lower part without damaging the eggs. In this case, the inclined bottom and the window in the glass wall facilitate the exit of caviar through the window. The slope of the bottom and the width of the window in the glass are selected empirically to create favorable conditions for the smooth movement of eggs and its distribution between particles of soil.

The execution on the side wall of the body of the lower part of the hole in sizes identical to the size of the window in the glass will also facilitate the exit of eggs from the body and its uniform distribution in the pores between the soil particles.

A hole in the upper part of the casing with a reservoir attached to it with a height of 0.9 to 1.6 D, where D is the inner diameter of the cylindrical casing, creates favorable conditions for the overflow of water with caviar from the reservoir into the glass, after filling of which, it is covered with a grid on top.

Fixing the baking powder on the body cap facilitates its penetration into the ground.

The installation on the body of the plate in the form of one coil of a spiral facilitates loosening of the soil when the body is deepened into the ground. After installing the housing in the ground, the plate serves as a support for reliable fixation of the housing in a vertical position, due to the support on the ground. And the location of the plate above the hole for the release of caviar does not allow particles of soil to get inside the body and protects the eggs when it leaves the body.

The utility model is illustrated by drawings, where in Fig.1 shows a longitudinal section of the device in the initial, not working position; figure 2 shows a longitudinal section of the device in the working position.

A device for creating an artificial nest for salmon fish in natural conditions includes a cylindrical body 1 in the lower part, the body 1 is closed by a plug 2, on which a baking powder 3 made of rectangular or triangular plates is mounted. Inside the housing 1 along the vertical axis is installed the rod 4, with the possibility of its rotation around the axis. At the end of the rod 4, a glass 5 is fixed, the height of which is from 0.9 to 1.6 D, where D is the inner diameter of the cylindrical body 1. The glass 5 is made with an inclined bottom 6. The inclination of the bottom 6 is from 20-45 °. A window 7 is formed on the side wall of the cup 5 from the bottom of the inclined bottom 6, the width of which is 0.2 D. On the side wall of the housing 1, a hole 8 is made in the upper part for laying fertilized eggs, to which a tank 9 is connected, made from a height of 0.9 to 1.6 D. In the lower part of the casing 1, a hole 10 is made in size identical to the size of the window 7 in the glass 5, and above it on the side surface of the casing 1 are fixed plates 11 in the form of a single coil of a spiral.

The device operates as follows.

In the soil 12 of the river bed, the housing 1 is installed at the starting point with the help of handles 13 located in the upper part of the housing 1. At the same time, the stem 4 with the glass 5 are in their highest position and deployed so that the window 7 of the glass 5 is located under the hole 8 Through the reservoir 9, in which there is water with fertilized caviar, the glass 5 is filled. The rod 4 is rotated through an angle of 90 ° so that the window 7 is turned to the wall of the housing 1, and lower it down to the bottom of the housing 1. Then the rod 4 rotate 90 °, combining window 7 in the side Tenke cup 5 and a hole 10 on the lower side of the housing 1, whereby the outlet channel. Due to the flow of water that occurs when it passes through the tank 9 and the side hole 10 in the wall of the housing 1, the fertilized eggs 14 are smoothly washed out of the glass 5 into the space between the particles of soil 12. The housing 1 begins to slowly lift up, while washing the eggs 13 and the process of filling them with the pores of the soil 12 is carried out until the glass 5 is completely empty.

A device for creating an artificial nest for salmon fish in natural conditions can be used at any time, even in winter when there is ice on the river through a separately drilled hole, and the case can be used repeatedly.

Claims (9)

1. A device for creating an artificial nest for salmon fish in natural conditions, comprising a cylindrical body with an opening for laying fertilized eggs and a baking powder located in the lower part of the body, characterized in that the device is additionally equipped with a rod mounted along the vertical axis of the body with the possibility of its rotation around the axis, a glass with an inclined bottom is fixed at the end of the rod, on the side wall of which a window is formed on the side of the lower point of the inclined bottom, on the side In the upper part of the housing there was a hole for laying fertilized eggs, to which a reservoir is attached, and in the lower part of the body there was a hole for releasing eggs in sizes identical to the size of the window in the glass. 2. The device according to claim 1, characterized in that the height of the glass is from 0.9 D to 1.6 D, where D is the inner diameter of the cylindrical body. 3. The device according to claim 1, characterized in that the width of the window in the glass corresponds to 0.2 D, where D is the inner diameter of the cylindrical body. 4. The device according to claim 1, characterized in that the inclination of the sloping bottom is made at an angle from 20 ° to 45 °. 5. The device according to claim 1, characterized in that the tank is made in height from 0.9 D to 1.6 D, where D is the inner diameter of the cylindrical body. 6. The device according to claim 1, characterized in that the upper edge of the tank is located above the surface of the water. 7. The device according to claim 1, characterized in that after filling the glass with fertilized caviar, it is covered by a grid from above to prevent the washing out of caviar when it is immersed in the lower part of the body. 8. The device according to claim 1, characterized in that in the lower part the housing is closed by a plug, on which a baking powder made of rectangular or triangular plates is mounted. 9. The device according to claim 1, characterized in that in its lower part, around the body, above the hole for the release of caviar, a plate is fixed in the form of one coil of a spiral.

Images